MAX8884 Evaluation Kit Evaluates: MAX8884Y/MAX8884Z General Description Features
... and tested PCB that demonstrates the highly integrated MAX8884Y step-down DC-DC converter and dual, 300mA, low-dropout (LDO) linear regulator. The stepdown output voltage is pin selectable between 1.2V and 1.8V and provides guaranteed output current of 700mA. Dual low-noise LDOs are also integrated ...
... and tested PCB that demonstrates the highly integrated MAX8884Y step-down DC-DC converter and dual, 300mA, low-dropout (LDO) linear regulator. The stepdown output voltage is pin selectable between 1.2V and 1.8V and provides guaranteed output current of 700mA. Dual low-noise LDOs are also integrated ...
a 3.3 V Supply, Voltage Output Temperature Sensor with Signal Conditioning AD22103*
... used in such systems. Overall system requirements involving other sensors or signal inputs may dictate the need for a fixed precision ADC reference. The AD22103 can be converted to absolute voltage operation by using a precision reference as the supply voltage. For example, a 3.3 V reference can be ...
... used in such systems. Overall system requirements involving other sensors or signal inputs may dictate the need for a fixed precision ADC reference. The AD22103 can be converted to absolute voltage operation by using a precision reference as the supply voltage. For example, a 3.3 V reference can be ...
Electronic fluorescent lamp ballast
... mains voltage variation, plus a 10% safety margin. For example, for the 220V RMS mains: Peak voltage = (220V x √2) + 15% +10% = 394V It would seem that devices with a BVCES of 400V could be used - however this would mean that the devices would have a BVCEO less than the voltage applied by the mains, ...
... mains voltage variation, plus a 10% safety margin. For example, for the 220V RMS mains: Peak voltage = (220V x √2) + 15% +10% = 394V It would seem that devices with a BVCES of 400V could be used - however this would mean that the devices would have a BVCEO less than the voltage applied by the mains, ...
Phoenix Plus - Barron Lighting Group
... • Input Frequency: 60 Hz • Power walk-in: 0 to 100% over a 10-second period. • Magnetizing Inrush Current: Less than nominal input current for less than one cycle. • Input Surge Protection: The Phoenix Plus is equipped with a standard input filter assembly that will withstand surges per IEEE 587-198 ...
... • Input Frequency: 60 Hz • Power walk-in: 0 to 100% over a 10-second period. • Magnetizing Inrush Current: Less than nominal input current for less than one cycle. • Input Surge Protection: The Phoenix Plus is equipped with a standard input filter assembly that will withstand surges per IEEE 587-198 ...
1321TH 13 GHz Bandwidth 2 GS/s THA
... The 1321TH track-and-hold amplifier is designed for high precision sampling of wideband signals with multi-GHz frequency content. The master-slave architecture integrates two track-and-hold (T/H) circuits, clock mode selection logic, and a 50 Ω differential output buffer. Sample rates up to 2 GS/s a ...
... The 1321TH track-and-hold amplifier is designed for high precision sampling of wideband signals with multi-GHz frequency content. The master-slave architecture integrates two track-and-hold (T/H) circuits, clock mode selection logic, and a 50 Ω differential output buffer. Sample rates up to 2 GS/s a ...
EVBUM2156 - Power-over-Ethernet PD Interface
... It is often desirable for the device to always use the auxiliary supply, even when PoE is available. In that case, the PoE must be disabled when the auxiliary is active. This feature is available in the NCP1092 and NCP1094. Auxiliary support will disconnect the PoE supply when an auxiliary supply is ...
... It is often desirable for the device to always use the auxiliary supply, even when PoE is available. In that case, the PoE must be disabled when the auxiliary is active. This feature is available in the NCP1092 and NCP1094. Auxiliary support will disconnect the PoE supply when an auxiliary supply is ...
ELECTRONIC DEVICES
... To understand the characteristics and applications of Diode. To understand the characteristics, configurations and biasing of transistors. To understand the characteristics and biasing of FET. To study the working of CRO. To study the working of Thyristors and their characteristics. Unit 1 ...
... To understand the characteristics and applications of Diode. To understand the characteristics, configurations and biasing of transistors. To understand the characteristics and biasing of FET. To study the working of CRO. To study the working of Thyristors and their characteristics. Unit 1 ...
AN-1895 LM22671 Evaluation Board (Rev. D)
... applications using TI components. To minimize the risks associated with Buyers’ products and applications, Buyers should provide adequate design and operating safeguards. TI does not warrant or represent that any license, either express or implied, is granted under any patent right, copyright, mask ...
... applications using TI components. To minimize the risks associated with Buyers’ products and applications, Buyers should provide adequate design and operating safeguards. TI does not warrant or represent that any license, either express or implied, is granted under any patent right, copyright, mask ...
Final build showcase
... which was there so that if needed I could switch between an alternate mode which would use a timing circuit instead of an infrared detection circuit to switch the coil. ...
... which was there so that if needed I could switch between an alternate mode which would use a timing circuit instead of an infrared detection circuit to switch the coil. ...
DPM-3232 Digital DC Power Meter with Data logging capability User Manual
... The DPM-3232 digital DC Power Meter measures and displays in real time; DC Voltage (0-60V), DC Current (060A) and Watts (0-3600W). It also displays; Amp-hour, W att-hour, maximum or peak Watts, running time since Power Meter start up and minimum and maximum values of voltage and current during the m ...
... The DPM-3232 digital DC Power Meter measures and displays in real time; DC Voltage (0-60V), DC Current (060A) and Watts (0-3600W). It also displays; Amp-hour, W att-hour, maximum or peak Watts, running time since Power Meter start up and minimum and maximum values of voltage and current during the m ...
COMBOLIGHT Remodel Recessed Trimless - 12V AR70 - 4 Light Square
... wiring, 6 #12 90º C supply conductors or 60º C for end of run. The fixture is also UL listed as ‘access above ceiling not required’. ...
... wiring, 6 #12 90º C supply conductors or 60º C for end of run. The fixture is also UL listed as ‘access above ceiling not required’. ...
ATP-Y/Analog Input to Pulse (Relay)
... Be sure to follow all local electrical codes. Refer to wiring diagram for connection information. Make all connections with the power off. 1.) The secondary supply voltage to the interface should be between 22 and 28 volts AC or DC and isolated from earth ground, chassis ground, and neutral leg of t ...
... Be sure to follow all local electrical codes. Refer to wiring diagram for connection information. Make all connections with the power off. 1.) The secondary supply voltage to the interface should be between 22 and 28 volts AC or DC and isolated from earth ground, chassis ground, and neutral leg of t ...
Konti-Skan 1 HVDC pole replacement
... continuous repetitive operation with triggering in this mode. This protection can be electronic as opposed to the use of discreet components such as break-over diodes (BOD) at each level. The electronic protection provides the same safeguards to the thyristor as the BOD but with greatly reduced stre ...
... continuous repetitive operation with triggering in this mode. This protection can be electronic as opposed to the use of discreet components such as break-over diodes (BOD) at each level. The electronic protection provides the same safeguards to the thyristor as the BOD but with greatly reduced stre ...
STLVDS31B
... switching speeds and allows operations with a 3.3 V supply rail. Any of the four current mode drivers will deliver a minimum differential output voltage magnitude of 247 mV into a 100 Ω load when enabled. The intended application of this device and signalling technique is for point-to-point baseband ...
... switching speeds and allows operations with a 3.3 V supply rail. Any of the four current mode drivers will deliver a minimum differential output voltage magnitude of 247 mV into a 100 Ω load when enabled. The intended application of this device and signalling technique is for point-to-point baseband ...
ZXTN25020DFL 20V, SOT23, NPN low power transistor Summary
... opportunity or consequential loss in the use of these circuit applications, under any circumstances. Life support Zetex products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Ze ...
... opportunity or consequential loss in the use of these circuit applications, under any circumstances. Life support Zetex products are specifically not authorized for use as critical components in life support devices or systems without the express written approval of the Chief Executive Officer of Ze ...
New Efficient Bridgeless Cuk Rectifiers for PFC Applications
... the current to flow through a minimum number of switching devices compared to the conventional PFC rectifier. Accordingly, the converter conduction losses can be significantly reduced and higher efficiency can be obtained, as well as cost savings. Recently, several bridgeless PFC rectifiers have bee ...
... the current to flow through a minimum number of switching devices compared to the conventional PFC rectifier. Accordingly, the converter conduction losses can be significantly reduced and higher efficiency can be obtained, as well as cost savings. Recently, several bridgeless PFC rectifiers have bee ...
Development of a Picosecond-resolution TDC for
... the digitization would be done with a 5 GHz 10-bit counter, resulting in a least count of 1 ps. The second design we have simulated is a time-to-amplitude converter (TAC) with a sensitivity of 1mV/ps. The maximum input time interval of 1ns will convert to a 1.0V voltage that is held in a capacitor. ...
... the digitization would be done with a 5 GHz 10-bit counter, resulting in a least count of 1 ps. The second design we have simulated is a time-to-amplitude converter (TAC) with a sensitivity of 1mV/ps. The maximum input time interval of 1ns will convert to a 1.0V voltage that is held in a capacitor. ...
Rectifier
A rectifier is an electrical device that converts alternating current (AC), which periodically reverses direction, to direct current (DC), which flows in only one direction. The process is known as rectification. Physically, rectifiers take a number of forms, including vacuum tube diodes, mercury-arc valves, copper and selenium oxide rectifiers, semiconductor diodes, silicon-controlled rectifiers and other silicon-based semiconductor switches. Historically, even synchronous electromechanical switches and motors have been used. Early radio receivers, called crystal radios, used a ""cat's whisker"" of fine wire pressing on a crystal of galena (lead sulfide) to serve as a point-contact rectifier or ""crystal detector"".Rectifiers have many uses, but are often found serving as components of DC power supplies and high-voltage direct current power transmission systems. Rectification may serve in roles other than to generate direct current for use as a source of power. As noted, detectors of radio signals serve as rectifiers. In gas heating systems flame rectification is used to detect presence of a flame.Because of the alternating nature of the input AC sine wave, the process of rectification alone produces a DC current that, though unidirectional, consists of pulses of current. Many applications of rectifiers, such as power supplies for radio, television and computer equipment, require a steady constant DC current (as would be produced by a battery). In these applications the output of the rectifier is smoothed by an electronic filter (usually a capacitor) to produce a steady current.More complex circuitry that performs the opposite function, converting DC to AC, is called an inverter.